Zhou M., Qian J. F., Ai X. P., Yang H. X*. Redox-Active Fe(CN) 6 4- -Doped Conducting Polymers with Greatly Enhanced Capacity as Cathode Materials for Li-Ion Batteries. Advanced Materials, (2011) 23, 4913–4917.
 Li W.，Zhou M. (co-first author), Li H., Wang K.*, Cheng S., Jiang K*. A high performance sulfur-doped disordered carbon anode for sodium ion batteries. Energy & Environmental Science, (2015) 8, 2916-2921.
 Zhou M., Li W. Gu T., Wang K.*, Cheng S. Jiang K*. A sulfonated polyaniline with high density and high rate Na-storage performances as a flexible organic cathode for sodium ion batteries. Chemical Communications, (2015) 51, 14354-14356.
Zhou M.⁎， Shen Y.， Yuan D., Ai X.，Yang H.， Poly(diphenylaminesulfonic acid sodium) as a cation-exchanging organic cathode for sodium batteries，Electrochemistry Communications，(2014) 49, 5-8.
 Zhou M.⁎，Shen Y.， Yuan D.， Ai X.， Yang H.，High capacity and cycling stability of poly(diaminoanthraquinone) as an organic cathode for rechargeable lithium batteries, Journal of Polymer Science Part B, (2014)53, 235-238.
 Zhou M., Zhu L. M, Zhao R. R. Qian J. F., Cao Y. L., Ai X. P., Yang H. X.* Fe(CN)64--doped polypyrrole: a high-capacity and high-rate cathode material for sodium-ion batteries. RSC Advances, (2012)2: 5495-5498.
 Zhou M., Qian J. F., Cao Y. L., Ai X. P., Yang H. X.* Low temperature hydrothermal synthesis and electrochemical performance of LiFePO4 microspheres as a cathode material for lithium-ion batteries. Chinese Science Bulletin, (2012) 11: 98-100.
 Zhou M., Xiong Y., Cao Y. L., Ai X. P., Yang H. X.* Electroactive organic anion - doped polypyrrole as a low cost and renewable cathode for sodium-ion batteries. Journal of polymer science Part B, (2013)，51：114-118.
 Li W., Zhou M.(co-first author), Li H., Wang K*., Cheng S., Jiang K.* Carbon-coated Sb2Se3 composite as anode material for sodium ion batteries. Electrochemistry Communications，(2015) 64, 74-77.
 Gu T., Zhou M.(co-first author), Liu M., Wang K. *, Cheng S. Jiang K. *, A Polyimide-MWCNTs composite as high performance anode for aqueous Na-ion batteries, RSC Advances, 2016, 6（58）,53319-53323.
 Tao H. Zhou M.(co-first author), Wang K.*, S. Cheng. K. Jiang*, Glycol Derived Carbon- TiO2 as Low Cost and High Performance Anode Material for Sodium-Ion Batteries, Sci. Rep., accepted.